1. Academic Validation
  2. Downregulation of the renal outer medullary K(+) channel ROMK by the AMP-activated protein kinase

Downregulation of the renal outer medullary K(+) channel ROMK by the AMP-activated protein kinase

  • Pflugers Arch. 2013 Feb;465(2):233-45. doi: 10.1007/s00424-012-1180-1.
Balasaheb Siraskar 1 Dan Yang Huang Tatsiana Pakladok Gulab Siraskar Mentor Sopjani Ioana Alesutan Yulia Kucherenko Ahmad Almilaji Vasudharani Devanathan Ekaterina Shumilina Michael Föller Carlos Munoz Florian Lang
Affiliations

Affiliation

  • 1 Department of Physiology, University of Tübingen, Tübingen, Germany.
Abstract

The 5'-adenosine monophosphate-activated serine/threonine protein kinase (AMPK) is stimulated by energy depletion, increase in cytosolic CA(2+) activity, oxidative stress, and nitric oxide. AMPK participates in the regulation of the epithelial Na(+) channel ENaC and the voltage-gated K(+) channel KCNE1/KCNQ1. It is partially effective by decreasing PIP(2) formation through the PI3K pathway. The present study explored whether AMPK regulates the renal outer medullary K(+) channel ROMK. To this end, cRNA encoding ROMK was injected into Xenopus oocytes with and without additional injection of constitutively active AMPK(γR70Q) (AMPK(α1)-HA+AMPK(β1)-Flag+AMPKγ1(R70Q)), or of inactive AMPK(αK45R) (AMPK(α1K45R)+AMPK(β1)-Flag+AMPK(γ1)-HA), and the current determined utilizing two-electrode voltage-clamp and single channel patch clamp. ROMK protein abundance was measured utilizing chemiluminescence in Xenopus oocytes and western blot in whole kidney tissue. Moreover, renal Na(+) and K(+) excretion were determined in AMPK(α1)-deficient mice (AMPK ( -/- )) and wild-type mice (AMPK ( +/+ )) prior to and following an acute K(+) load (111 mM KCl, 30 mM NaHCO(3), 4.7 mM NaCl, and 2.25 g/dl BSA) at a rate of 500 μl/h. As a result, coexpression of AMPK(γR70Q) but not of AMPK(αK45R) significantly decreased the current in ROMK1-expressing Xenopus oocytes. Injection of phosphatidylinositol PI((4,5))P(2) significantly increased the current in ROMK1-expressing Xenopus oocytes, an effect reversed in the presence of AMPK(γR70Q). Under control conditions, no significant differences between AMPK ( -/- ) and AMPK ( +/+ ) mice were observed in glomerular filtration rate (GFR), urinary flow rate, serum aldosterone, plasma Na(+), and K(+) concentrations as well as absolute and fractional Na(+) and K(+) excretion. Following an acute K(+) load, GFR, urinary flow rate, serum aldosterone, plasma Na(+), and K(+) concentration were again similar in both genotypes, but renal absolute and fractional Na(+) and K(+) excretion were higher in AMPK ( -/- ) than in AMPK ( +/+ ) mice. According to micropuncture following a K(+) load, delivery of Na(+) to the early distal tubule but not delivery of K(+) to late proximal and early distal tubules was increased in AMPK (-/-) mice. The upregulation of renal ROMK1 protein expression by acute K(+) load was more pronounced in AMPK (-/-) than in AMPK ( +/+ ) mice. In conclusion, AMPK downregulates ROMK, an effect compromising the ability of the kidney to excrete K(+) following an acute K(+) load.

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